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Prenatal and postnatal antibiotic exposure influences the gut microbiota of preterm infants in neonatal intensive care units.
Zou, ZH, Liu, D, Li, HD, Zhu, DP, He, Y, Hou, T, Yu, JL
Annals of clinical microbiology and antimicrobials. 2018;17(1):9
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Plain language summary
Disturbances in gut bacteria could have long-term effects on a baby’s health. The development of healthy gut bacteria is influenced by factors such as the surrounding environment, gestational age, delivery mode, feeding method and exposure to antibiotics. The aim of this study was to investigate the effects of antibiotic exposure on the development of gut bacteria in premature babies. This study was carried out in a hospital in China. 28 premature babies who had been admitted to the neonatal intensive care unit were included in the study. Stool samples were collected when the babies were 7 and 14 days old. The researchers found that the characteristics of the gut bacteria in babies exposed to antibiotics was different to those who were not. The numbers of beneficial Bifidobacterium were significantly lower in those babies who had received antibiotics compared to those who had not. Exposure to antibiotics for more than 7 days led to increases in the presence of some strains of drug-resistant bacteria. The authors concluded that antibiotic exposure may affect the composition of early gut bacteria in premature babies which could potentially increase the risk of contracting harmful infections.
Abstract
BACKGROUND To explore the influences of prenatal antibiotic exposure, the intensity of prenatal and postnatal antibiotic exposure on gut microbiota of preterm infants and whether gut microbiota and drug resistant strains in the neonatal intensive care unit (NICU) over a defined period are related. METHODS Among 28 preterm infants, there were two groups, the PAT (prenatal antibiotic therapy) group (12 cases), and the PAF (prenatal antibiotic free) group (12 cases). Fecal samples from both groups were collected on days 7 and 14. According to the time of prenatal and postnatal antibiotic exposure, cases were divided into two groups, H (high) group (11 cases) and L (low) group (11 cases), and fecal samples on day 14 were collected. Genomic DNA was extracted from the fecal samples and was subjected to high throughput 16S rRNA amplicon sequencing. Bioinformatics methods were used to analyze the sequencing results. RESULTS Prenatal and postnatal antibiotic exposure exercised influence on the early establishment of intestinal microflora of preterm infants. Bacteroidetes decreased significantly in the PAT group (p < 0.05). The number of Bifidobacterium significantly decreased in the PAT group and H group (p < 0.05). The early gut microbiota of preterm infants with prenatal and postnatal antibiotic exposure was similar to resistant bacteria in NICU during the same period. CONCLUSION Prenatal and postnatal antibiotic exposure may affect the composition of early gut microbiota in preterm infants. Antibiotic-resistant bacteria in NICU may play a role in reshaping the early gut microbiota of preterm infants with prenatal and postnatal antibiotic exposure.
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Association between duration of intravenous antibiotic administration and early-life microbiota development in late-preterm infants.
Zwittink, RD, Renes, IB, van Lingen, RA, van Zoeren-Grobben, D, Konstanti, P, Norbruis, OF, Martin, R, Groot Jebbink, LJM, Knol, J, Belzer, C
European journal of clinical microbiology & infectious diseases : official publication of the European Society of Clinical Microbiology. 2018;37(3):475-483
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Premature newborn babies are commonly given antibiotics in hospital to prevent or treat infections such as sepsis. This study, carried out in the Netherlands, looked at the effect of intravenous antibiotics on the development of the gut bacteria in premature babies. Stool samples were taken from 15 premature babies who had been exposed to either no antibiotic treatment, or short (less than 3 days) or long (at least 5 days) treatment with the commonly prescribed antibiotics amoxicillin or ceftazidime. At 3 weeks old, babies who had been treated with both short and long courses of antibiotics had significantly lower abundance of the beneficial bacteria Bifidobacterium than those who had received no antibiotics. In babies who received antibiotic treatment lasting 5 days or more, Bifidobacterium levels didn’t recover until they were 6 weeks old. Antibiotics were effective against Enterobacteriaceae, but allowed Enterococcus to thrive and remain dominant for up to two weeks after antibiotic treatment was stopped. The authors concluded that intravenous antibiotics during the first week of a baby’s life greatly affects the gut bacteria. However, short courses of antibiotics allow for a quicker recovery compared to longer courses. Disturbances in the development of gut bacteria caused by antibiotic treatment could influence the development of infants' immune and digestive systems.
Abstract
Antibiotic treatment is common practice in the neonatal ward for the prevention and treatment of sepsis, which is one of the leading causes of mortality and morbidity in preterm infants. Although the effect of antibiotic treatment on microbiota development is well recognised, little attention has been paid to treatment duration. We studied the effect of short and long intravenous antibiotic administration on intestinal microbiota development in preterm infants. Faecal samples from 15 preterm infants (35 ± 1 weeks gestation and 2871 ± 260 g birth weight) exposed to no, short (≤ 3 days) or long (≥ 5 days) treatment with amoxicillin/ceftazidime were collected during the first six postnatal weeks. Microbiota composition was determined through 16S rRNA gene sequencing and by quantitative polymerase chain reaction (qPCR). Short and long antibiotic treat ment significantly lowered the abundance of Bifidobacterium right after treatment (p = 0.027) till postnatal week three (p = 0.028). Long treatment caused Bifidobacterium abundance to remain decreased till postnatal week six (p = 0.009). Antibiotic treatment was effective against members of the Enterobacteriaceae family, but allowed Enterococcus to thrive and remain dominant for up to two weeks after antibiotic treatment discontinuation. Community richness and diversity were not affected by antibiotic treatment, but were positively associated with postnatal age (p < 0.023) and with abundance of Bifidobacterium (p = 0.003). Intravenous antibiotic administration during the first postnatal week greatly affects the infant's gastrointestinal microbiota. However, quick antibiotic treatment cessation allows for its recovery. Disturbances in microbiota development caused by short and, more extensively, by long antibiotic treatment could affect healthy development of the infant via interference with maturation of the immune system and gastrointestinal tract.